/*                     /Net/dxcern/userd/timbl/hypertext/WWW/Library/Implementation/SGML.html
                               SGML AND STRUCTURED STREAMS

   The SGML parser is a state machine. It is called for every
   character of the input stream. The DTD data structure contains
   pointers to functions which are called to implement the actual
   effect of the text read. When these functions are called, the
   attribute structures pointed to by the DTD are valid, and the
   function is passed a pointer to the curent tag structure, and an
   "element stack" which represents the state of nesting within SGML
   elements.

   The following aspects are from Dan Connolly's suggestions: Binary
   search, Strcutured object scheme basically, SGML content enum type.

   (c) Copyright CERN 1991 - See Copyright.html

 */
#ifndef SGML_H
#define SGML_H

#include "HTUtils.h"
#include "HTStream.h"

/*

SGML content types

 */
typedef enum _SGMLContent{
  SGML_EMPTY,    /* no content */
  SGML_LITTERAL, /* character data. Recognised excat close tag only. litteral
                    Old www server compatibility only! Not SGML */
  SGML_CDATA,    /* character data. recognize </ only */
  SGML_RCDATA,   /* replaceable character data. recognize </ and &ref; */
  SGML_MIXED,    /* elements and parsed character data. recognize all markup */
  SGML_ELEMENT   /* any data found will be returned as an error*/
  } SGMLContent;


typedef struct {
    char *      name;           /* The (constant) name of the attribute */
                                /* Could put type info in here */
} attr;


/*              A tag structure describes an SGML element.
**              -----------------------------------------
**
**
**      name            is the string which comes after the tag opener "<".
**
**      attributes      points to a zero-terminated array
**                      of attribute names.
**
**      litteral        determines how the SGML engine parses the charaters
**                      within the element. If set, tag openers are ignored
**                      except for that which opens a matching closing tag.
**
*/
typedef struct _tag HTTag;
struct _tag{
    char *      name;                   /* The name of the tag */
    attr *      attributes;             /* The list of acceptable attributes */
    int         number_of_attributes;   /* Number of possible attributes */
    SGMLContent contents;               /* End only on end tag @@ */
};




/*              DTD Information
**              ---------------
**
** Not the whole DTD, but all this parser usues of it.
*/
typedef struct {
    HTTag *             tags;           /* Must be in strcmp order by name */
    int                 number_of_tags;
    WWW_CONST char **       entity_names;   /* Must be in strcmp order by name */
    int                 number_of_entities;
} SGML_dtd;


/*      SGML context passed to parsers
*/
typedef struct _HTSGMLContext *HTSGMLContext;   /* Hidden */


/*__________________________________________________________________________
*/
/*              Structured Object definition
**
**      A structured object is something which can reasonably be
**      represented in SGML.  I'll rephrase that.  A structured
**      object is am ordered tree-structured arrangement of data
**      which is representable as text.
**
**      The SGML parer outputs to a Structured object.
**      A Structured object can output its contents
**      to another Structured Object.
**      It's a kind of typed stream.  The architecure
**      is largely Dan Conolly's.
**      Elements and entities are passed to the sob by number, implying
**      a knowledge of the DTD.
**      Knowledge of the SGML syntax is not here, though.
**
**      Superclass: HTStream
*/


/*      The creation methods will vary on the type of Structured Object.
**      Maybe the callerData is enough info to pass along.
*/

typedef struct _HTStructured HTStructured;

typedef struct _HTStructuredClass{

        char*  name;                            /* Just for diagnostics */

        void (*free) PARAMS((
                HTStructured*   me));

        void (*end_document) PARAMS((
                HTStructured*   me));

        void (*handle_interrupt) PARAMS((
                HTStructured*   me));

        void (*put_character) PARAMS((
                HTStructured*   me,
                char            ch));

        void (*put_string) PARAMS((
                HTStructured*   me,
                WWW_CONST char *    str));

        void (*write) PARAMS((
                HTStructured*   me,
                WWW_CONST char *    str,
                int             len));

        void (*start_element) PARAMS((
                HTStructured*   me,
                int             element_number,
                WWW_CONST BOOL*             attribute_present,
                WWW_CONST char**            attribute_value));

        void (*end_element) PARAMS((
                HTStructured*   me,
                int             element_number));

        void (*put_entity) PARAMS((
                HTStructured*   me,
                int             entity_number));

}HTStructuredClass;



/*      Create an SGML parser
**
** On entry,
**      dtd             must point to a DTD structure as defined above
**      callbacks       must point to user routines.
**      callData        is returned in callbacks transparently.
** On exit,
**              The default tag starter has been processed.
*/


extern HTStream* SGML_new PARAMS((
        WWW_CONST SGML_dtd *                dtd,
        HTStructured *          target));

extern WWW_CONST HTStreamClass SGMLParser;


#endif  /* SGML_H */
